Substrate and functional characterization of the lysine acetyltransferase MsKat and deacetylase MsCobB in Mycobacterium smegmatis

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Yunbo Kan , Shuyu Xie , Yewen Sun , Tong Ye , Yunxu Bian , Fang Guo , Mingya Zhang , Tianxian Liu , Tianqi Liu , Jing Ji , Bin Liu , Minjia Tan , Jun-Yu Xu
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Abstract

Tuberculosis (TB) is a serious cause of infectious death worldwide. Recent studies have reported that about 30% of the Mtb proteome was modified post-translationally, indicating that their functions are essential for drug resistance, mycobacterial survival, and pathogenicity. Among them, lysine acetylation, reversibly regulated by acetyltransferase and deacetylase, has important roles involved in energy metabolism, cellular adaptation, and protein interactions. However, the substrate and biological functions of these two important regulatory enzymes remain unclear. Herein, we utilized the non-pathogenic M. smegmatis strain as a model and systematically investigated the dynamic proteome changes in response to the overexpressing of MsKat/MsCobB in mycobacteria. A total of 4179 proteins and 1236 acetylated sites were identified in our data. Further analysis of the dynamic changes involved in proteome and acetylome showed that MsKat/MsCobB played a regulatory role in various metabolic pathways and nucleic acid processes. After that, the quantitative mass spectrometric method was utilized and proved that the AMP-dependent synthetase, Citrate synthase, ATP-dependent specificity component of the Clp protease, and ATP-dependent DNA/RNA helicases were identified to be the substrates of MsKat. Overall, our study provided an important resource underlying the substrates and functions of the acetylation regulatory enzymes in mycobacteria.

Significance

In this study, we systematically analyzed the dynamic molecular changes in response to the MsKat/MsCobB overexpression in mycobacteria at proteome and lysine acetylation level by using a TMT-based quantitative proteomic approach. Pathways related with glycolysis, degradation of branched chain amino acids, phosphotransferase system were affected after disturbance of the two regulates enzymes involved in lysine acetylation. We also proved that AMP-dependent synthetase Clp protease, ATP-dependent DNA/RNA helicases and citrate synthase was the substrate of MsKat according to our proteomic data and biological validation. Together, our study underlined the substrates and functions of the acetylation regulatory enzymes in mycobacteria.

Abstract Image

分枝杆菌中赖氨酸乙酰转移酶 MsKat 和去乙酰化酶 MsCobB 的底物和功能表征
结核病(TB)是导致全球感染性死亡的一个严重原因。最近的研究报告显示,约有 30% 的结核杆菌蛋白质组在翻译后被修饰,这表明它们的功能对于抗药性、结核杆菌的生存和致病性至关重要。其中,赖氨酸乙酰化受乙酰转移酶和去乙酰化酶的可逆调控,在能量代谢、细胞适应和蛋白质相互作用中具有重要作用。然而,这两种重要调控酶的底物和生物功能仍不清楚。在此,我们以非致病性的M. smegmatis菌株为模型,系统研究了分枝杆菌过表达MsKat/MsCobB后蛋白质组的动态变化。我们的数据共鉴定出 4179 个蛋白质和 1236 个乙酰化位点。对蛋白质组和乙酰基组动态变化的进一步分析表明,MsKat/MsCobB在多种代谢途径和核酸过程中发挥着调控作用。随后,利用定量质谱方法证明,依赖于 AMP 的合成酶、柠檬酸合成酶、依赖于 ATP 的 Clp 蛋白酶特异性成分和依赖于 ATP 的 DNA/RNA 螺旋酶是 MsKat 的底物。本研究采用基于TMT的定量蛋白质组学方法,在蛋白质组和赖氨酸乙酰化水平上系统分析了分枝杆菌中MsKat/MsCobB过表达时的动态分子变化。参与赖氨酸乙酰化的两种调控酶受到干扰后,与糖酵解、支链氨基酸降解、磷酸转移酶系统有关的途径都受到了影响。我们还根据蛋白质组数据和生物学验证证明,依赖于 AMP 的合成酶 Clp 蛋白酶、依赖于 ATP 的 DNA/RNA 螺旋酶和柠檬酸合成酶是 MsKat 的底物。总之,我们的研究强调了分枝杆菌中乙酰化调节酶的底物和功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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